Finding Na,K-ATPase: I - From Cell to Molecule
The oppositely oriented concentration gradients of Na+ and K+ ions across the cell membrane as found in animal cells led to the requirement of an active ion-transport mechanism that maintains this steady-state condition. As solution of this problem the Na,K-ATPase was identified, a member of the P-t...
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Firenze University Press
2018-03-01
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| Series: | Substantia |
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| Online Access: | https://riviste.fupress.net/index.php/subs/article/view/38 |
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doaj-298662d6c56a481d926d9b86c6d364f22020-11-25T00:47:50ZengFirenze University PressSubstantia2532-39972018-03-012110.13128/Substantia-3838Finding Na,K-ATPase: I - From Cell to MoleculeHans-Jürgen Apell0Dept. of Biology, University of Konstanz, Universitätsstraße 10, 78464 Konstanz, GermanyThe oppositely oriented concentration gradients of Na+ and K+ ions across the cell membrane as found in animal cells led to the requirement of an active ion-transport mechanism that maintains this steady-state condition. As solution of this problem the Na,K-ATPase was identified, a member of the P-type ATPase family. Its stoichiometry has been defined as 3 Na+/2 K+/1 ATP, and a class of Na,K-ATPase-specific inhibitors, cardiac steroids, was established, which allow the identification of this ion pump. In an effort lasting for several decades structural details were uncovered down to almost atomic resolution. The quaternary structure of the functional unit, either αβ heterodimer or (αβ)n complexes with n ≥ 2, is still under discussion. https://riviste.fupress.net/index.php/subs/article/view/38sodium pumpactive transportdiscoveryphysiological rolestructure |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Hans-Jürgen Apell |
| spellingShingle |
Hans-Jürgen Apell Finding Na,K-ATPase: I - From Cell to Molecule Substantia sodium pump active transport discovery physiological role structure |
| author_facet |
Hans-Jürgen Apell |
| author_sort |
Hans-Jürgen Apell |
| title |
Finding Na,K-ATPase: I - From Cell to Molecule |
| title_short |
Finding Na,K-ATPase: I - From Cell to Molecule |
| title_full |
Finding Na,K-ATPase: I - From Cell to Molecule |
| title_fullStr |
Finding Na,K-ATPase: I - From Cell to Molecule |
| title_full_unstemmed |
Finding Na,K-ATPase: I - From Cell to Molecule |
| title_sort |
finding na,k-atpase: i - from cell to molecule |
| publisher |
Firenze University Press |
| series |
Substantia |
| issn |
2532-3997 |
| publishDate |
2018-03-01 |
| description |
The oppositely oriented concentration gradients of Na+ and K+ ions across the cell membrane as found in animal cells led to the requirement of an active ion-transport mechanism that maintains this steady-state condition. As solution of this problem the Na,K-ATPase was identified, a member of the P-type ATPase family. Its stoichiometry has been defined as 3 Na+/2 K+/1 ATP, and a class of Na,K-ATPase-specific inhibitors, cardiac steroids, was established, which allow the identification of this ion pump. In an effort lasting for several decades structural details were uncovered down to almost atomic resolution. The quaternary structure of the functional unit, either αβ heterodimer or (αβ)n complexes with n ≥ 2, is still under discussion.
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| topic |
sodium pump active transport discovery physiological role structure |
| url |
https://riviste.fupress.net/index.php/subs/article/view/38 |
| work_keys_str_mv |
AT hansjurgenapell findingnakatpaseifromcelltomolecule |
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